Computerized neuropsychological tests

More recently, computer generated neuropsychological test programs have been developed and are currently being validated in the sports setting. They include:

Immediate Post-Concussion Assessment and Cognitive Testing (ImPACT) developed at the University of Pittsburgh Medical Center;

Computerized Cognitive Assessment Tool (CCAT) marketed in North America by Axon Sports and developed by CogState of Victoria, Australia;

Concussion Resolution Index (CRI) developed by HeadMinder, Inc. of New York, NY;

Automated Neuropsychological Assessment Metrics (ANAM) system: a PC Windows-based test protocol developed by the National Rehabilitation Hospital Assistive Technology and Neuroscience Center in Washington, DC (Editor's note: a joint investigation by National Public Radio and Pro Publica, which aired on NPR's "All Things Considered" on November 28, 2011, severely questioned the reliability of this program, which was developed and is primarily used by the military); [9]and

Advantages

Rapid scoring: tests take less time (more traditional pen and paper neuropsychological tests usually take an hour or more to administer)

Ease of administration: the tests do not need to be administered by a neuropsychologist (although a neuropsychologist, ideally, should supervise the testing program and test interpretation).

Increased test-retest reliability. Some tests allow for infinite variety in the test questions that alleviate the practice or learning effects seen with more traditional neuropsychological test batteries.

Greater accessibility: The computerized test batteries are accessible to a wide range of clinicians, including athletic trainers.

One recent study suggests that the tests may also help clinicians predict, when combined with an athlete's scores on the Post-Concussion Symptom Scale in the first 2 to 3 days post-injury, whether a concussion will require protracted recovery (more than 14 days),[7] although the study have been criticized for using only post-injury test results without comparison to pre-injury baseline test results, and as lacking in practical value in the care of individual athletes which, current concussion management guidelines say, requires individualized assessment and treatment.

Neuropsychologists should administer and interpret test results

Because most states require advance training and licensing to purchase and use NP tests, and they are copyright protected, the National Athletic Training Association's 2004 Position Statement [4] recommends that a licensed psychologist, preferably board-certified in clinical neuropsychology or with clinical experience in evaluating sport-related concussions, oversee and supervise the testing.

The Zurich consensus statement [1]echoes that position ("Neuropsychologists are in the best position to interpret NP tests by virtue of their background and training.").

The Centers for Disease Control's FAQs about Baseline Testing [10] states that, ideally, and where possible, a neuropsychologist should interpret the computerized or paper-pencil neuropsychological test components of a baseline exam. As for who should administer baseline tests, the CDC is even more emphatic, stating flatly that "baseline tests should only be conducted by a trained health care professional."

Use of computerized tests on rise

A study published in 2011[2] analyzing data collected on concussions suffered in nine high school sports during the 2009-2010 school year, reported that in schools with at least one athletic trainer on staff, computerized neuropsychological testing was used to assess 41.2% of concussions, up from 25.7% of concussions for the 2008-2009 school year,[3] although it found that, when the return to play decision was made by a physician, the athlete was more likely to undergo comptuerized neuropsychological testing than if the decision was made by an ATC (52.6% versus 35.7%).

A 2010 study[3] found that injured athletes evaluated with such tests were less likely to return to play on the same day as their injury, and also less likely to return to play within a week of injury than those who were not tested using such diagnostic tool.

The authors speculated that one possible explanation for such finding was that, despite reporting resolutions of their symptoms, the athletes still had subtle deficits in their neurocognitive function (memory, concentration, processing speed, reasoning), which the tests picked up.

They said the results provided "further evidence [of] the benefit of neuropsychological testing in the management of sport-related concussion" as shown in several previous studies.

Limitations

More widespread use of computerized tests faces many of the same challenges as with use of pen-and-paper tests, including:

Questions regarding test reliability: As a 2010 clinical report issued by the American Academy of Pediatrics noted,"one critique of the computerized tests is that the vast majority of studies have been conducted by the developers of the tests themselves, which raises some concern for bias, because some independent study results have suggested slightly less reliable results."[4]
A 2011 study, noting the rapid rise in usage of computerized neuropsychological testing for the management of concussions in sports in the high school setting, urged that "future research focus" on their use;[3]

As noted above, the ANAM test recently came under severe criticism in an NPR/Pro Publica investigation of computerized neuropsychological testing by the U.S. military, particularly the Army.[9]

Test-retest reliability in two recent studies of the ImPACT test was lower than previously reported,[11,19] and up to 20% to 40% of athletes who were not concussed were found to have impairments on one of the test's five cognitive measures (false positives),[11-13] while another found that 17% of concussed athletes did not have any detectable cognitive abnormalities (false negatives).[14]

Required user training and qualifications (a licensed psychologist is needed to interpret results of the most widely used test);

Hardware and software issues inherent to computerized testing; and

User costs.[3]

Children and adolescents: different rules

The Zurich consensus statement recognizes that in the "NP testing may be used to assist RTP decisions and is typically performed when an athlete is clinically asymptomatic," but that "NP assessment may add important information in the early stages following injury," and that there "may be particular situations where testing is performed early to assist in determining aspects of management, for example, return to school in a pediatric athlete."

Thus, for children and adolescents, different testing rules may apply:

Testing while symptomatic. In contrast to adults and athletes in their late teens, NP testing may be performed while the young athlete is still symptomatic in order to assist in school and home management;[1,7] young athletes need to limit exertion in day-to-day activities and scholastic and other cognitive stressors (e.g. text messaging, video-games, etc.) while symptomatic ("cognitive rest"), which in some cases may require restricting school attendance and extracurricular activities to avoid making symptoms worse.[1] Clinical evaluation of such athletes for concussion may also need to include both patient and parent input, as well as teacher and school input, where appropriate. If an athlete is suffering from post-concussion symptoms over several months (post-concussion syndrome) or has had multiple concussions, formal assessment by a neuropsychologist may be helpful, specifically to identify areas for which the athlete may need academic accommodations. MomsTEAM's expert sport concussion neuropsychologist Rosemarie Scolaro Moser, PhD, believes that the first post-concussion test should be performed relatively soon following an injury - within a day or two is fine, whatever is convenient - provided the athlete has been medically evaluated, and then retested no sooner than one week later. She warns, however, against over-testing. "Just as sending a concussed athlete back to school too soon can tax an overly tired brain [hence the need for cognitive rest], sub[jecting] a concussed athlete to repeated neurocognitive tests can tire him out, too."

Adjusted for age and maturity level. Whatever cognitive testing is performed, it must be sensitive to the fact that athletes younger than their late teens are not only growing physically, but cognitively at a rapid rate, which may limit the value of test results when comparing them to either the athlete's own, earlier baseline performance or to what is considered "normal" among his peer population. Note: different rules will apply for children below age 10, because such children report different symptoms - thus requiring a different, age-appropriate symptom checklist as an assessment component.[1,20]There is currently no established, validated computerized neuropsychological test for the grade school athlete, although a computerized test for use in the athletes younger than 12 years is currently being developed.

Repeated annually or every two years. The Centers for Disease Control[10] recommends that most components of baseline tests (such as balance assessment, and the presence of any concussion symptoms) be repeated annually to establish a valid test result to which post-concussion results can be compared, and that baseline computerized or paper-pencil neuropsychological tests be repeated every two years. The CDC notes that more frequent neuropsychological testing may be needed if an athlete has a history of concussions or if the athlete has a medical condition that could effect results of the test." Dr. Moser agrees. "This kind of repetitive baseline testing," Moser writes in her excellent 2012 book, Ahead of the Game: A Parents' Guide To Youth Sports Concussion, "can not only anticipate maturational growth spurts, but it can also take into account mild concussions that might have gone unnoticed or undiagnosed, as well as cumulative deficits from a series of subconcussive blows (blows that aren't strong enough to trigger immediate symptoms, but that may cause problems over time)."

The bottom line, says Dr. Moser, is that neurocognitive "testing is not perfect, nor should it be the only tool used in monitoring recovery from concussions or in making return-to-playdecisions. [It] is one tool of many and, despite its inherant flaws, it is valuable and generally considered preferable to not testing at all."

1. P. McCrory et. al, Consensus statement on concussion in sport: the 4th International Conference on Concussion in Sport held in Zurich, November 2012. Br J Sports Med 2013;47;250-258.